A needle-free universal vaccine may soon be on the horizon. Scientists have successfully run the first trial, which showed the vaccine can safely elicit an immune response to several viruses. But more research has to be conducted before it’s approved for widespread use.
How was the vaccine developed?
This universal vaccine is the first human-tested inoculation to have its active component designed by computer simulations, according to a study published in the Journal of Infection. The vaccine has an AI-created “super-antigen,” a “protein that mimics shared features across multiple coronaviruses, rather than targeting a single specific strain, which can trigger the body’s immune system to fight a broad array of pathogens with those base characteristics,” said Euronews. Researchers “used all the available genetic sequence data for Sarbeco coronaviruses,” which are “zoonotic viruses that primarily circulate in bats and can jump to humans or other mammals.” They then “applied machine learning to create the super-antigen.”
“Viruses like influenza, coronaviruses and the Ebola group are evolving continuously and by the time vaccines are rolled out, they may be poorly matched,” Saul Faust, a professor at the University of Southampton and the study’s chief investigator, said in a news release. But this “new class of universal vaccines are future-proofed,” as they “not only protect against many variants simultaneously, but potentially against related viruses that haven’t yet emerged.” The universal vaccine can therefore curb outbreaks and even prevent pandemics in the future.
The vaccine is also needle-free. It is administered through a microfluidic jet, which “uses a high-pressure, hair-thin stream of liquid to push vaccine blueprints directly into skin cells,” said Sky News. Without needles, the vaccine has greater “global applicability by reducing volume requirements, eliminating sharps waste and improving uptake in settings where needle-based administration is a barrier,” said Euronews. These vaccines also do not have to be kept as cold as traditional vaccines, “making them well-suited for use in low- and middle-income countries and in rapid-response scenarios.”
Is it effective on humans?
The vaccine has already shown promise in humans. The first clinical trial was conducted with 39 volunteers and the vaccine was “well tolerated at all four doses with no significant safety concerns elicited,” said the study. It also “triggered immune responses in the volunteers not only to SARS-CoV-2 and SARS, but to related bat viruses that could potentially jump from animals to humans and cause future pandemics,” said the release.
However, the “magnitude of the response was limited and did not increase predictably with higher doses,” though this is likely influenced by prior Covid-19 exposure and vaccination history among participants, said the study. A larger Phase 2 trial will “next assess the vaccine’s ability to induce immune responses in a wider and more diverse population, and confirm that it generates strong, broadly protective immune responses,” said the release.
The clinical trial proves the success of a whole new way to create vaccines. The use of AI “could protect against future emerging virus threats” and reduce the “need for frequent reformulation, which is a fundamental limitation of current vaccines,” said the release.
The old vaccine development system was like a “dog chasing its tail,” study lead Jonathan Heeney, a researcher from the University of Cambridge’s Lab of Viral Zoonotics, said in the release. “We can escape the constant cycle of chasing the virus variants circulating in humans and updating the vaccines to try to catch up.”